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TMAG5110-Q1

ACTIVE

Automotive, high-sensitivity, 2D, dual-channel, Hall-effect latch

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Data sheet

TMAG5110-Q1

ACTIVE
Data sheet Order now

Product details

Type 2D Latch Operate point (typ) (mT) 1.4, 3 Operate point (max) (mT) 2.6, 5.3 Release point (min) (mT) -5.3, -2.6 Supply current (µA) 6000 Bandwidth (kHz) 40 Supply voltage (min) (V) 2.5 Supply voltage (max) (V) 38 Rating Automotive Operating temperature range (°C) -40 to 125 Output Open drain TI functional safety category Functional Safety-Capable
Type 2D Latch Operate point (typ) (mT) 1.4, 3 Operate point (max) (mT) 2.6, 5.3 Release point (min) (mT) -5.3, -2.6 Supply current (µA) 6000 Bandwidth (kHz) 40 Supply voltage (min) (V) 2.5 Supply voltage (max) (V) 38 Rating Automotive Operating temperature range (°C) -40 to 125 Output Open drain TI functional safety category Functional Safety-Capable
SOT-23 (DBV) 5 8.12 mm² 2.9 x 2.8
  • AEC-Q100 qualified with the following results:
    • Device temperature grade 1: –40°C to 125°C ambient operating temperature range
    • Device HBM ESD classification Level H3A
    • Device CDM ESD classification Level C6
  • Functional Safety-Capable
  • 2D sensing with planar and vertical hall sensors
  • Inherent quadrature independent of magnet alignment or magnet pole pitch
  • Two functional options available:
    • TMAG5110-Q1: independent 2D outputs
    • TMAG5111-Q1: speed and direction outputs
  • Ultra-high magnetic sensitivity:
    • TMAG511xx2-Q1: ±1.4mT (typical)
    • TMAG511xx4-Q1: ±3mT (typical)
  • Fast 40kHz sensing bandwidth
  • 2.5V to 38V operating VCC range
  • Open-drain output (10mA sink)
  • Wide ambient operating temperature range:
    • –40°C to +125°C
  • Protection features
    • Reverse supply protection (up to –20V)
    • Device survives up to 40V
    • Output short-circuit protection
    • Output current limitation
  • AEC-Q100 qualified with the following results:
    • Device temperature grade 1: –40°C to 125°C ambient operating temperature range
    • Device HBM ESD classification Level H3A
    • Device CDM ESD classification Level C6
  • Functional Safety-Capable
  • 2D sensing with planar and vertical hall sensors
  • Inherent quadrature independent of magnet alignment or magnet pole pitch
  • Two functional options available:
    • TMAG5110-Q1: independent 2D outputs
    • TMAG5111-Q1: speed and direction outputs
  • Ultra-high magnetic sensitivity:
    • TMAG511xx2-Q1: ±1.4mT (typical)
    • TMAG511xx4-Q1: ±3mT (typical)
  • Fast 40kHz sensing bandwidth
  • 2.5V to 38V operating VCC range
  • Open-drain output (10mA sink)
  • Wide ambient operating temperature range:
    • –40°C to +125°C
  • Protection features
    • Reverse supply protection (up to –20V)
    • Device survives up to 40V
    • Output short-circuit protection
    • Output current limitation

The TMAG5110-Q1 and TMAG5111-Q1 are 2-dimensional, dual Hall-effect latches operating from a 2.5V to 38V power supply. Designed for high-speed and high-temperature motor applications, these devices are optimized for applications leveraging rotating magnets. Integrating two sensors and two separate signal chains the TMAG511x-Q1 offers two independent digital outputs giving speed and direction calculation (TMAG5111-Q1) or giving directly the digital output of each independent latches (TMAG5110-Q1). This high level of integration allows the use of a single TMAG511x-Q1 device instead of two separate latches.

The device is offered in a standard 3mT operating point, as well as a high-sensitivity 1.4mT operating point. The higher magnetic sensitivity provides flexibility in low-cost magnet selection and mechanical component placement. The TMAG511x-Q1 is also available in three 2-axis combination options (X-Y, Z-X, Z-Y) to allow flexible placement of the sensor relative to the magnet.

The device performs consistently across a wide ambient temperature range of –40°C to +125°C.

The TMAG5110-Q1 and TMAG5111-Q1 are 2-dimensional, dual Hall-effect latches operating from a 2.5V to 38V power supply. Designed for high-speed and high-temperature motor applications, these devices are optimized for applications leveraging rotating magnets. Integrating two sensors and two separate signal chains the TMAG511x-Q1 offers two independent digital outputs giving speed and direction calculation (TMAG5111-Q1) or giving directly the digital output of each independent latches (TMAG5110-Q1). This high level of integration allows the use of a single TMAG511x-Q1 device instead of two separate latches.

The device is offered in a standard 3mT operating point, as well as a high-sensitivity 1.4mT operating point. The higher magnetic sensitivity provides flexibility in low-cost magnet selection and mechanical component placement. The TMAG511x-Q1 is also available in three 2-axis combination options (X-Y, Z-X, Z-Y) to allow flexible placement of the sensor relative to the magnet.

The device performs consistently across a wide ambient temperature range of –40°C to +125°C.
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Technical documentation

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* Data sheet TMAG511x-Q1 2D, Dual-Channel, High-Sensitivity, Hall-Effect Latch datasheet (Rev. C) PDF | HTML 17 Dec 2024
Functional safety information TMAG511x-Q1 Functional Safety FIT Rate, FMD and Pin FMA PDF | HTML 17 Dec 2024
Application brief Position Sensing in Automotive Body Motors PDF | HTML 19 Nov 2024
Product overview Introduction to Hall-Effect Sensors (Rev. B) PDF | HTML 25 Apr 2024
White paper 位置感測器如何在汽車與工業應用中實現創新 (Rev. A) PDF | HTML 22 Mar 2024
White paper 위치 센서가 차량용 및 산업용 애플리케이션의 혁신을 구현하는 방법 (Rev. A) PDF | HTML 22 Mar 2024
White paper How Position Sensors Enable Innovation in Automotive and Industrial Applications (Rev. A) PDF | HTML 08 Mar 2024
Application brief Introduction to TI Magnetic Sense Simulator Features PDF | HTML 05 Dec 2023
User guide Texas Instruments' Magnetic Sense Simulator User's Guide PDF | HTML 04 Dec 2023
Application brief Magnetic Sensors for Sensor Modules PDF | HTML 11 Aug 2023
Application note Hall Sensor and Magnet Selection for Auto Body Motor Module Design PDF | HTML 31 Aug 2022
Application note Designing With Magnetic Versus Optical Solutions in Incremental Encoders PDF | HTML 17 Aug 2022
Application brief Differences Between Optical and Magnetic Incremental Encoders PDF | HTML 17 Aug 2022
Application note TMAG511x 2D Latch Benefits PDF | HTML 22 Jun 2022
Application brief Multi-State Position Selection Using Hall-Effect Sensors PDF | HTML 13 Jan 2022
Application brief Incremental Rotary Encoders (Rev. B) PDF | HTML 02 Dec 2021
Application note Reducing Quadrature Error for Incremental Rotary Encoding Using 2D Hall-Effect (Rev. B) PDF | HTML 13 Oct 2021

Design & development

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Evaluation board

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SOT-23 (DBV) 5 Ultra Librarian
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